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Non‐Epitaxial Electrodeposition of Overall 99 % (002) Plane Achieves Extreme and Direct Utilization of 95 % Zn Anode and By‐Product as Cathode

Sheng Chen, Kefeng Ouyang, Youfa Liu, Mangwei Cui, Pu Guo, Yihan Wang, Kun Zhang, Yan Huang

2024Angewandte Chemie International Edition22 citationsDOIOpen Access PDF

Abstract

Abstract Zn anode protection in Zn‐ion batteries (ZIBs) face great challenges of high Zn utilization rate (i.e., depth of discharge, DOD) and high current density due to the large difficulty in obtaining an extreme overall RTC (relative texture coefficient) of Zn (002) plane. Through the potent interaction of Mn(III) aq and H + with distinct Zn crystal planes under an electric field, large‐size Zn foils with a breakthrough (002) plane RTC of 99 % (i.e., close to Zn single crystal) are electrodeposited on texture‐less substrates, which is also applicable from recycled Zn. The ultra‐high (002) plane RTC remarkably enhances cyclic performance of the Zn anode (70 % DOD @ 45.5 mA cm −2 ), and the DOD is even up to 95 % (@ 28.1 mA cm −2 ) with an electrolyte additive of polyaniline. Furthermore, MnO 2 , the by‐product of electrodeposition, is directly used as cathode of both coin cell and pouch battery, surpassing the cyclic performance exhibited by the majority of Zn||MnO 2 batteries in previous instances. These results demonstrate the great potential of our strategy for high‐performance, low‐cost and large‐scale ZIBs.

Topics & Concepts

AnodeCathodeMaterials scienceProduct (mathematics)EpitaxyGalvanic anodeOptoelectronicsNanotechnologyElectrical engineeringElectrodeChemistryEngineeringMathematicsCathodic protectionGeometryLayer (electronics)Physical chemistryAdvanced battery technologies researchSupercapacitor Materials and FabricationAdvanced Battery Materials and Technologies